DE2007469C3 - Magnetic stereo pickup - Google Patents

Description

The invention relates to a magnetic stereo pickup with one or more stationary ones Permanent magnets for generating a flux in an air space in which an armature is movably arranged and with at least two magnetizable conductors, each enclosed by at least one coil and are connected to the or the permanent magnet and the armature in such a way to form a magnetic circuit that the movements of the armature in the one or the two magnetizable conductors depending on the direction of movement of the flux changes Have a consequence, the magnetizable conductors each at their ends facing the armature in a or pass over several permanent magnets and connected to the same pole of the permanent magnet (s) are and wherein the armature in its rest position is arranged symmetrically to the permanent magnet or magnets is that this one magnetic shunt has the same magnetic resistance value for the or which forms permanent magnets.

This pick-up is based on the following principle: The anchor causes you, so to speak magnetic short circuit of the fixed permanent magnet or magnets. When the armature is in its neutral central position, it will load the stationary permanent magnet (s) equally. The pole faces of the or the permanent magnets therefore have essentially the same magnetic potential. This means that in this state no flux penetrates the magnetic conductors. If the armature now oscillates in the plane determined by the magnetic conductors, then the magnetic resistance in the one magnetic circuit including the armature is reduced and in the other magnetic circuit which also includes the armature. The one in question Flux through the armature within the one magnetic circuit will decrease and in that another magnetic circuit increase with the result that the magnetic potential of the pole face of the fixed permanent magnet in question falls, while the magnetic potential of the pole face of the other fixed permanent magnet increases. A magnetic potential difference, which is dependent on the needle movement and thus the armature deflection, arises between the two ends of the stationary permanent magnet (s), where the relevant magnetic conductors connect to them, thereby creating a magnetic potential difference in them Flux is generated which induces an electrical voltage in the coils attached to the magnetic conductors, which voltage represents the signal corresponding to the needle movement

Such a pickup is published in Japanese Patent Laid-Open No. 10 187/1965. It has it has been found that it is difficult to achieve high sensitivity with such a pickup. The invention is therefore based on the object of improving the sensitivity of the known pickup to increase significantly.

According to the invention, this object is achieved in that the armature is oriented opposite to the surrounding, fixed permanent magnet Contains permanent magnets.

In the stereo pickup according to the invention there is therefore one or more stationary permanent magnets on the one hand and on the other hand, in addition, a permanent magnet in the armature, the latter compared to the stationary Permanent magnet is polarized opposite. By using the permanent magnet in the armature it is achieved that to the magnetomotive force that drives a flux through the armature, a further magnetomotive force is connected in series, which in total has a flow-enhancing effect. If the armature then experiences a deflection, the result is a correspondingly increased one Flux escaping via the magnetizable conductors, which penetrates the coils and generates a corresponding voltage in them. It turns out to be true the effect that when the armature is deflected, the greater the force of attraction, the further it is is deflected. However, this effect contrasts with the particularly desired increase in sensitivity practically not apparent, since the size of the deflection compared to the air gap between the armature and fixed permanent magnets is very small.

It is expedient to construct the pickup according to the invention in such a way that two magnetizable conductors are diametrically opposed to each other and with their coils each form a magnet system which is rotated by 90 ° with respect to the other.

A structurally simple design for the fixed permanent magnet or magnets is obtained by training as a ring magnet made of magnetically anisotropic material. Such a ring magnet has a relatively high permeability in its axial direction, on the other hand a very low permeability at right angles for this purpose, so that it acts like a separate magnet on each individual pole with respect to the pole legs Leg acts.

Favorable magnetic conditions in the pickup are obtained in particular when the permanent magnets associated with the armature with a significantly greater length than the fixed magnet or magnets Permanent magnets.

An embodiment of the invention is shown in the figures shown it shows

F i g. 1 a longitudinal section through the pickup,

F i g. 2 shows a section along the line H-II in FIG. 1,

3 shows the front end in perspective of the magnetic system and the needle assembly arranged therein and

F i g. 4 a schematic representation of one half of the magnetic system with the armature in neutral position.

The in F i g. 1 to 3 has a cartridge molded from a suitable plastic material Housing 1. At one end of the housing, a recess 7 is provided in which a contact piece 2 with four pin plugs 3 - only two of which are shown in FIG. 1 are shown - is arranged. At the other At the end of the housing there is a replaceable needle assembly that has a molded plastic support body 4, which with a protruding, hollow control pin 5 of non-circular cross-section engages in a recess 6 of the housing 1 formed with the same cross section.

A continuous one extends between the bottom of the recess 7 and the front of the housing 1 Recess, which has a rear part 8 of mainly square cross-section and a front part 9, the cross-section of which as in FIG. 2 shows the shape of a center circle and four along it Has circumference of evenly distributed peripheral circles tangent to the center circle.

This continuous recess 8, 9 is used for recording of the magnetic system, which consists of four cylindrical legs made of Permalloy, their front parts each lie in a cylindrical edge part of the recess 9 and move backwards through the recess 8 extend. The rear ends of the legs 10 are also made of Permalloy Crosspiece 11 attached to one another and magnetically to one another connected. A coil 12 located in the recess 8 is arranged on each leg 10. All diametrically opposed pairs of coils are through lines 13 with each other and with two of the Pin connector 3 connected. At the front end of the legs ΙΟ and in extension of these is one in the axial direction magnetized and made of ceramic, magnetically anisotropic material, ring-shaped Permanent magnet 14 is provided. The magnet 14 lies in an extension of the recess 9 on the front side of the housing 1.

In the lower part of the support body 4 of the needle assembly is an inclined, cylindrical, continuous channel 15 formed which opens at the bottom of the body and an extension of the recess 9 of the Housing 1 forms. In this channel 15 is made of a non-magnetic material, for example aluminum Fastened tube 16, which protrudes from the support body 4 and when attaching the needle unit in Housing 1 is inserted into the cylindrical central part of the recess 9.

In the tube 16 there is a tubular one consisting of or containing a permanent magnet Armature 17, which is oriented opposite to the ring magnet 14, by means of an annular, elastic cushion 18 made of, for example, rubber or neoprene mounted in such a way that it is around in all directions can swing freely at a point in or near the center of the pillow. The anchor 17 is a lot longer than the ring magnet 14 and is coaxial and symmetrical in relation to it. That’s at anchor attached one end of a tubular, thin-walled needle arm 19 made of aluminum, which through the Channel 15 passes through it. The free end of the needle arm 19 lying outside the support body 4 is pressed flat and carries a needle 20.

On the underside of the housing 1, a magnetic screen 21 is attached, which is located between the housing and the support body 4 of the needle assembly extends over the front of the housing.

To explain the mode of operation of the pickup, FIG. 4 schematically one half of the electromagnetic System corresponding to the one sound channel shown in a stereo recording. The point of oscillation of the anchor is denoted by 22 here. Since the anisotropic ceramic ring magnet 14 has a high has magnetic reluctance in all directions at right angles to the axial direction, it is magnetic in Relationship with two rod permanent magnets equivalent, as shown in FIG. 4 shown at the end and in Extension of a respective leg 10 are arranged, it being assumed that the north poles of this Magnets are facing the thighs. Assuming that the two magnets are equally strong, is in the shown neutral position of the armature 17, the magnetic potential of the two end faces of the from the legs 10 and the cross piece 11 existing magnetic conductor will be the same, and therefore no flux will pass through this conductor. On the other hand there will be a relatively high flux from the north pole of each magnet through the armature to the south pole of the magnet go, as indicated by the dash-dotted lines. Since the anchor is a far smaller Magnetic resistance has as the ceramic magnets and since the air gaps implied in practice are very small, this flow can be referred to as a short-circuit flow.

If now the anchor as a result of the needle movement, for example upwards in the plane of the paper around the Point 22 oscillates, it will approach the upper magnet, causing the resistance in its short-circuit path is reduced, and at the same time moves away from the lower magnet, whose short-circuit flux is thus increased Meets resistance. In other words, the upper short-circuit flux is increased and the lower one is decreased will. This is the result of the relatively high internal resistance of the magnets have that the magnetic potential at the north pole of the upper magnet falls, while the magnetic potential increases at the north pole of the lower magnet. The result is a magnetic one that is dependent on the armature movement Potential difference between the two ends of the magnetic conductor 10, 11,10, which is why in this Head a river is brought forth, which in

the windings 12 induced electrical voltages, which are added and the sampled sound signal represent.

Armature vibrations originating from the other sound channel take place in the plane at right angles on the paper and are in the plane in this plane lying other half of the electromagnetic system converted into electrical voltages.

Since the magnetic conductor 10, U, 10 is only intended to carry the useful signal flow, which changes direction with the armature deflections, the legs can 10 can be made very thin without the magnetic operating point outside the rectilinear part of the Magnetization curve device.

It should also be pointed out that the legs 10, for example, instead of the circular cross-section shown, also have a square or rectangular cross-section May have cross-section. The anchor can also have other cross-sectional shapes.

1 sheet of drawings

Claims (4)

Patent claims: Ί. Magnetic stereo pickup with a or several stationary permanent magnets for generating a flow in an air space in which an armature is movably arranged and with at least two magnetizable conductors, each enclosed by at least one coil and with the permanent magnet or magnets and the armature in such a way to one. magnetic circuit are interconnected that the movements of the armature in one or the two magnetizable conductors, depending on the direction of movement, result in flux reductions, whereby the magnetic sierbacen conductors merge into one or more permanent magnets at their ends facing the armature and have poles of the same name of or the permanent magnets are connected and wherein the armature is symmetrical in its rest position the or the permanent magnet is arranged so that it has a magnetic shunt in each case the same magnetic resistance value for the permanent magnet (s), characterized in that the armature (17) has a Opposite oriented permanent magnets compared to the surrounding fixed permanent magnets (t4) contains. 2. Magnetic stereo pickup according to claim 1, characterized in that in each case two magnetizable conductors (10) are diametrically opposed to each other and each with their coils (12) Form a magnet system that is rotated by 90 ° with respect to the other. 3. Magnetic stereo pickup according to claim 1 or 2, characterized in that the fixed permanent magnet designed as a ring magnet (14) and consists of magnetically anisotropic material. 4. Magnetic stereo pickup according to one of claims t to 3, characterized in that the permanent magnet contained in the armature (17) , is much greater in length than the fixed permanent magnet or magnets (14). 45